cse workshop on transport and climatecdn.cseindia.org/userfiles/shrikant_marathe.pdfin 2013 1982 92...

CSE WORKSHOP ON TRANSPORT AND CLIMATETRANSPORT AND CLIMATE

REGULATORY PREPAREDNESS

ByyShrikant Marathe

Director h f d ( )Automotive Research Association of India (ARAI)

Presentation Layout

•• Global Scenario Global Scenario –– MobilityMobility

• Indian Scenario – Mobility

• Challenges And Concern Areas

l• Current Regulatory System

• Way Forward for Regulatory Preparedness• Way Forward for Regulatory Preparedness

Global ScenarioGlobal Scenario MobilityMobility

Global Scenario – MobilityEstimated Global Vehicle

Global vehicle fleet expected

Estimated Global Vehicle Population (bn)

Global vehicle fleet expected to grow to 2 billion by 2050

Source: Clean Air Asia Center, Presentation, Dec 2012Source: WBSCD

Asia witnessing a growing demand for g gpersonal mobility 

Source: Clean Air Asia Center, Presentation, Dec 2012

Global Scenario – Mobility

Road Transport accounts8 2%12.2% Road Transport accounts 

for 16% of CO2 EmissionsElectricity Generation

& Heating

Manufacturing& Construction

Fuel combustionfor otheruses

15.9%

18.2%

43 9%

Road Transport(Cars, Trucks & Buses)

& Heating

Source: OICA Website & Urban Mobility in the 21st Century A Report 

43.9%

Conventional technologyConventional technology vehicles still expected to dominate even in 2030

Source: BP Energy Outlook 2030, Jan 2012

Indian ScenarioIndian Scenario MobilityMobility

Indian Scenario – Mobility20.7  million units in 2013

1982 921993 ‐ 2007

2008 Onwards11 million units in 20070.6 million units 

in 1992

in 2013

Before 1982

1982 ‐ 92

JV between Indian 

Sector de‐licensed in 1993 Imports allowed 

0.4 million units in 1982

Removal of most import controls Indian companies gaining global identity 

Before 1982

Closed MarketSeller’s Market

Govt. & Suzuki established

pfrom April 2001 

Sales – Indian Automotive Industry(Million Units)

No. of Players in Indian IndustryPassenger Cars 15Utility Vehicles 10MHCV 7

20.3

20.7

2011‐12

2012‐13

(Million Units)

MHCV 7LCV 7Scooters 7Motorcycles 9Mopeds 33 Wh l 7

11.3

14.1

17.9

2008‐09

2009‐10

2010‐11

3‐Wheelers 7

Source: SIAM Database & IBEF Presentation

Indian Scenario – MobilityTotal Registered

• 125 million registered vehicles in India

42.3

125.3

Estimated Production in 2020‐21

Total Registered Vehicles as of 2012

Source: SIAM and ACMA Presentations

• Automobile production to double by 2020‐21

20.6Production in 2012‐13

Source: SIAM and ACMA Presentations

V hi l d it 1000• Vehicle density per 1000 population in India expected to grow to 65 by 2030

Source: BP Energy Outlook 2030, Jan 2012

But Indian Vehicle Population has far outgrown compared

Indian Scenario – MobilityBut, Indian Vehicle Population has far outgrown compared to the infrastructure

Source: Estimation of Automobile emissions and control strategies – K. S. Nesamani, University of California, 2009

Indian Scenario – Mobility

Automobiles are cleanAutomobiles are clean

But, still Road Transport alone accounts for aboutalone accounts for about 70% of CO2 emission in Transport sector

Adapted from SIAM Presentation 2012 on Emissions & Fuel Efficiency

By 2050 Passenger VKT is expected double and Freight VKT triple

So, trends are relatively clearBy 2050, Passenger VKT is expected double and Freight VKT triple

Resulting in increased Transport related fuel usage and CO2 emissions

Source: Transport and Sustainability – CRA International

Resulting in ‘Transportation Imbalance’

InfrastructureTechnological Developments

Environmental Impacts Growing Transportation NeedsUrbanization Population Concentration

Challenges AndChallenges And Concern AreasConcern Areas

So, what does the                           have in store for the Environment ???Environment ???

Climate Change Resource Depletion

Congested Roads

Green House Gases– Transport Sector 

15

CO2 Emissions per Unit Load by Transport Mode

Large Tanker

Large Containership 3

1 25g/mile

g p

Railway 6

Coastal Carrier

Standard-size Commercial Truck 49

11

Small-size Commercial Truck 226

Airplane

100 200 300 400

398

0

Units Relative

Main Greenhouse Gases and Characteristics

Benzene

Benzo a PyreneArsenic

Ammonia

ArsenicNickel

But does this not mean, we step back in technologystep back in technology…

Rather we require a systems Systems Rather, we require a systems approach to counter these challenges and to …

yApproach

dd bl h h

Some of foreseen ‘Concerns’ for Mobility in

Concerns are addressable through …

R d i CO i i Reducing CO2 emissions The situation in Europe

21

Reducing CO2 emissions –– integrated approach

An integrated approachteg ated app oac

Delivering majority of new car CO2 reductions

Influencing demand in a harmonised wayharmonised way

Sustainable production

22

Reducing congestion

Japan’s ApproachJapan s Approachto CO2 Reduction

Adopting an Integrated Sectoral Approach to CO2ReductionAdopting an Integrated Sectoral Approach to CO2ReductionReductionReductionImproving automotive fuel efficiency and traffic flow is not enough to reduce CO2 emissions in the road transportsector. An integrated approach is required, which includes the development and supply of alternative fuels and a moreefficient use of vehicles The adoption of these measures will ultimately make CO2 reduction efforts compatible withefficient use of vehicles. The adoption of these measures will ultimately make CO2 reduction efforts compatible witheconomic growth.All stakeholders concerned should identify their individual responsibilities and make their best efforts to carry themout, in a framework of mutual cooperation.

S l fS l f

Automakers/Government[f l ff

Government/Fuel suppliers/ Automakers[biofuels, etc.]

GreaterGreaterFuel EfficiencyFuel Efficiency

Supply of Supply of Alternative FuelsAlternative Fuels

[fuel efficiencystandards]

[biofuels, etc.]

Vehicle users(with the cooperation of

Improved Improved Traffic FlowTraffic Flow

More More Efficient Efficient Use ofUse ofMotorMotor

Government[road infrastructure upgrades, ITS, enforce‐ment of parking bans, 

(with the cooperation of fleet operators & 

government promotion)[eco‐driving, vehicle sharing, more efficient goodsMotor Motor 

VehiclesVehiclesetc.]more efficient goods distribution, shift to rail transport, etc.]

Current RegulatoryCurrent Regulatory SystemSystem

Regulatory Scenario – Emissions

Vehicle Emissions• Emission norms for Catalytic Vehicles 

• BS‐I  (Country) • BS‐II (Metros)

• BS‐III (Country)BS IV (13 Citi )

1991 to 2000 2001 to 2005 2006 to 2010 By 2015

• BS‐II (Metros)

• BS‐II (Country) • BS‐III (11 Cities)

• BS ‐IV (13 Cities)

• Another 50 Cities to be included by 2015 for BS IV( )

Diesel Sulphur Reduction• Sulphur 2500 ppm • Sulphur 50 ppm (13 Cities) &

1991 to 2000 2001 to 2005 2006 to 2010

• Sulphur 2500 ppm for entire Country

• Sulphur 500 ppm for entire 

• Sulphur 50 ppm (13 Cities) & 350 ppm for entire Country

Country & 350 ppm (11 Cities)

Emission Level BS IV

hi l i h i i i iVehicles with 

i

Application of Test Requirements for Type‐Approval and Extensions – 4 wheelers

Vehicle Category Vehicles with Positive Ignition Compression Ignition

Mono Fuel Bi fuel Mono Fuel

Reference fuel Petrol LPG CNG Petrol Petrol DieselCNG LPG

Type I

CO (both fuels) (both fuels)THC (both fuels) (both fuels) -

NMHC - - - -

NOX (both fuels) (both fuels)yp( Gaseous Pollutants)

NOX (both fuels) (both fuels)

THC+NOX - - - - -

PM - - - - -PN - - - - - -

Type II 

Idle CO & HC (both fuels) (both fuels) -

High Idle Co & Lambda - - (Petrol) (Petrol) -

Free Acceleration Smoke - - - - -

Type III Crank case emission - - (Petrol) (Petrol) -

Type IV Evaporative Emission - - (Petrol) (Petrol) -

T V D bili (P t l) (P t l)Type V Durability (Petrol) (Petrol)OBD (both fuels) (both fuels)

In‐service conformity - - - - - -

CO2/FE regulation proposed implementation date : 2016‐2017 & 2021‐2022.

Emission Level EURO V(BS V)/EURO VI(BS VI)

Vehicle CategoryVehicles with Positive Ignition Vehicles with 

Compression Ignition

Mono Fuel Bi fuel Mono Fuel Flex Fuel

Reference fuel Petrol E5 LPG CNG Petrol E 5 Petrol E  Diesel B 5 Diesel B 5CNG LPG Bio Diesel

CO (both fuels) (both fuels) (Diesel)

Type I( Gaseous Pollutants)

THC (both fuels) (both fuels) - -

NMHC (both fuels) (both fuels) - -NOX (both fuels) (both fuels) (Diesel)

THC+NOX (Diesel)) THC+NOX - - - - - (Diesel)

PM - - - - - (Diesel)

Particle Number - - (Petrol) (Petrol) (Diesel)

Idle CO & HC (both fuels) (both fuels) -

Type II 

Idle CO & HC (both fuels) (both fuels)

High Idle Co & Lambda - - (Petrol) (Petrol) -

Free Acceleration Smoke - - - - - (Diesel)

Type III Crank case emission - - (Petrol) (Petrol) -

Type IV Evaporative Emission - - (Petrol) (Petrol) -

Type V Durability (Petrol) (Petrol) (Diesel)OBD (both fuels) (both fuels)

In‐service conformity (both fuels) (both fuels) (Diesel)

CO2/FE regulations (both fuels) (both fuels) (Diesel)

Vehicle with PI engines including hybridsVehicles with C.I. 

engines i l di h b id

European Regulation‐ Application of Test Requirements for Type‐Approval and Extensions – 2 wheelers ( Euro IV,‐2017,  Euro V‐2021)

including hybridsMono fuel Bi fuel Flex fuel Flex fuel Mono Fuel

Reference Fuel Petrol (E5)

LPG NG/ Biomethane

H2 Petrol(E5)

Petrol(E5)

Petrol(E5)

Petrol (E5) NG/Biomethane

Diesel(B5)

Diesel(B5)

/LPG NG/ Biomethane

Hydrogen Ethanol (E85)

H2NG Biodiesel

Type I TestTailpipe emissions after cold start

Yes Yes Yes Yes Yes (both fuels)

Yes (both fuels)

Yes (both fuels)

Yes (both fuels)

Yes (both fuels) Yes (B5 only) Yes

Type I TestType I Test Particulates mass (Euro 5 only)

Yes No No No Yes (petrol only)

Yes (petrol only)

Yes (petrol only)

Yes (petrol only) No Yes (B5 only) Yes

Type II TestEmissions at idling and increased idling speed Yes (both Yes (both Yes (petrol Yes (both Yes (NG/ increased idling speed 

& Smoke opacity for CI 

only

Yes Yes Yes Yes Yes (both fuels)

Yes (both fuels)

Yes (petrol only)

Yes (both fuels) biomethane 

only)Yes (B5 only) Yes

Type III testCrankcase Emissions Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Type IV TestEvaporative emissions Yes No No No Yes (petrol 

only)Yes (petrol 

only)Yes (petrol 

only)Yes (petrol 

only) No No No

Type V TestDurability of pollution 

control devicesYes Yes Yes Yes Yes (petrol 

only)Yes (petrol 

only)Yes (petrol 

only)Yes (petrol 

only)

Yes (NG/ biomethane 

only)Yes (B5 only) Yes

Type VII testCO2 emissions Yes Yes Yes Yes Yes (both 

fuels)Yes (both fuels)

Yes (both fuels)

Yes (both fuels)

Yes (both fuels)

Yes (both fuels) Yes

Type VIII testOBD tests  Yes Yes Yes Yes Yes (petrol 

only)Yes (petrol 

only)Yes (petrol 

only)Yes (petrol 

only)

Yes (NG/ biomethane 

only)Yes (B5 only) Yes

Way Forward forWay Forward for Regulatory PreparednessRegulatory Preparedness

Chassis Dynamometer Facilities – Euro V / Euro VI

149 kW 5 kW155 kW149 kW 5 kW155 kW4W Chassis 

Dynamometer 4 x 2HCV Chassis Dynamometer

2W Chassis Dynamometer

4W Chassis Dynamometer 4 x 4

Transient Dynamometer

50 kW2W/3W Chassis Dynamometer

SHED Particle Number Measurement

Mileage Accumulator Dyno with Robot 4 x 4

VTC CVTC MACD

Establishment – New FacilitiesVTC  CVTC MACD

Description 4WMass emission testingClimatic chamber to carryout Type‐VI test‐measurement of 

CO and HC at ‐7 °C

Mileage accumulation chassis dyno.

4 x 4 4 x 4 4 x 4Base Inertia 1200 kg per axle 1200 kg per axle 1300 kg per axle

Inertia simulation range of unit

454 to 5448 Kg 454 to 5448 Kg 454 to 5448 Kgrange of unitMax Speed 250 km/h 250 km/h 250 km/h

This total facility will be ready for customers by April 2014This total facility will be ready for customers by April 2014

Particle Number measurement for Euro 5 and Euro 6

SHED (Evaporative Emission Determination)

Climatic chamber for temperatures from ‐30°C to + 55°C and 20% RH to 75 % RH20% RH to 75 % RH

Export Homologation

Organization Structure for WP.29EFV

EVE

FQ

GFV

HDH

HFCV

WP29GRPE MACTP

NRMMICE

OCE

PMP

REC

EV/HEV

PMP

GRB

GRE

GRRF REC

WHDC

WLTP DHC

DTPPMP

AP

RF

GRRF

GRSG

GRSPRF

VTFWMTC

WWH‐OBD

India’s Position

• Active participation in WP.29 & GR meetings

• Signatory to 1998 agreement under which GTR (Gl b l T h i l R l ti )GTRs (Global Technical Regulations) are being formulated

• Our national standards are being updated• Our national standards are being updated for alignment with ECE regulations

Policy Initiatives of Government of India (GoI)

• Inspection and Certification ProgramInspection and Certification Program

• National Electric Mobility Mission Plan (NEMMP) 2020• National Electric Mobility Mission Plan (NEMMP) 2020

• Traffic Management through Intelligent Transport• Traffic Management through Intelligent Transport Systems

• Auto Fuel Vision & Policy 2025 Committee – Four Working Groups formulated alreadyWorking Groups formulated  already

Inspection and Certification Program for In‐use Vehicles

Himachal Pradesh

National Capital RegionHaryana

10 Model Test Centers beingestablished

Uttar Pradesh

y

Rajasthan

C t t b f ilit t d b ARAICenters to be facilitated by ARAI

Centers to be facilitated by NATRiP

Gujarat-Surat

Maharashtra- Nasik

Madhya Pradesh-ChindhwadaCenter to be facilitated by SIAM

Karnataka-Bangalore

Andhra Pradesh-Hyderabad

Inspection and Certification Program for In‐use VehiclesBenefits :Benefits :

Safer & Cleaner VehiclesReduced Accidents & Fatalities

Identification & Reduction of Gross Polluting Vehicles

Improvement in Fuel Consumption

Establishment of Desired facilities for Test Centres and Garages

Inputs for End of Life of Vehicles

Networking of DataNetworking of Data

Commercial VehiclesVehicle Population

Inspection and Certification Program Expected Road Map

Commercial VehiclesVehicle PopulationLCV +HCV = 33384721No. of Lanes reqd.=1154Centers reqd =288

Commercial VehiclesVehicle Population

LCV +HCV = 139456264No. of Lanes reqd.=4820Centers reqd.=1205Approx. Inv.=12050  cr.

p p

20202035

Centers reqd.=288Approx. Inv.=2885  cr.

Commercial VehiclesVehicle PopulationLCV +HCV = 11701141N f L d 405

Passenger  Vehicles

Vehicle PopulationLCV +HCV = 20729285No. of Lanes reqd.= 716Centers reqd.=179Approx. Inv.=1700  cr.

2009

2015Passenger  VehiclesP l ti 57662411

Passenger  VehiclesPopulation=92865890No. of lanes reqd.=2150Centers reqd.=537

No. of Lanes reqd.= 405Centers reqd.=101Approx. Inv.=1012 cr.

gPopulation=387923870No. of lanes reqd.=8980Centers reqd.=2245Approx. Inv.=15715 cr.2Wheeler

Passenger  VehiclesPopulation=32548928No. of lanes reqd.=753

Population=57662411No. of lanes reqd.=1335Centers reqd.=334Approx. Inv.=2336  cr.2Wheeler 

Approx. Inv.=3763 cr.2Wheeler Population=235102822No. of lanes reqd.=4567Centers reqd =1141

2Wheeler Population=982082834No. of lanes reqd.=19077Centers reqd.=4769Approx. Inv.=23846 cr.

Centers reqd.=188Approx. Inv.=1318 cr.2Wheeler Population= 82402105No of lanes reqd =1601

Population=145980355No of lanes reqd.=2838Centers reqd.=709Approx. Inv.=3500  cr.

Centers reqd.=1141Approx. Inv.=5709 cr.

Above lane requirements are based on following assumptions:2 shift operation and 80 % lane occupancy75 % operating efficiency and 300 working days in one yearNo of lanes reqd. 1601

Centers reqd.=400Approx. Inv.=2001 cr.

75 % operating efficiency and 300 working days in one year.Based on the vehicle population data available from year 2009by MoRTH‐ Provisional (10% vehicle growth for every year isconsidered.)

* We have not considered the failed vehicles and recertification forsame in above considerations

National Electric Mobility Mission Plan (NEMMP) 2020

Encourage Reliable, Affordable and Efficient xEVs

Enable Indian Automotive Industry to achieve xEVmanufacturing leadership

Contribute towards National Fuel Security

Emerge as world leader in xEV 2‐Wheeler and 4‐Wheeler market by 2020Wheeler market by 2020 

Total projected sales of 6‐7 million units

National Electric Mobility Mission Plan (NEMMP) 2020

• BMS & Battery• Power Electronics & Motors• Testing Infrastructure Human Resources Energy

Working Group on R&D • Testing Infrastructure, Human Resources, Energy 

efficient Technologieson R&D

• Technology & Standards• Infrastructure Rollout

Working Group on Infrastructure

• Demand Incentive SchemeWorking Group D d & • Incentive Delivery & Monitoring Mechanism

• Promotion of Hybrid Retro‐fitment Kitson Demand & 

Supply

Everyone has a role to play

Infrastructure

MUTPMUTPTechnology mapping, synergy in R&D efforts &innovation

Grid StrengtheningDoEDoEDSTDST

innovation

On road taxation blMNREMNREMoRTHMoRTH& incentives Renewable energyMNREMNREMoRTHMoRTH

EV manufacturing

MoEFMoEFDHIDHI Environmental effects/ LCA

i l 12V/42V Mi

Vehicle Cost : +5.8%CO2:‐23%

Vehicle Cost : +1.5%CO2:‐4.2%

Vehicle Cost : +13.3%CO2:‐34%

Diesel Engine 12V Stop/Start

Belt Starter/Alternator

12V/42V  Micro Hybrid 

Belt Starter / Alternator / 

42V /120V Mild Hybrid 

Integrated Starter / Alt t / M tImproved 

Gasoline Engine

/Motor Alternator / Motor

Full Parallel 

CO2 benefitsHybrid

1 or 2 High voltage motor, ZEV d

Vehicle Cost : +23.5%CO2:‐45%

Vehicle Cost : +27 5%Vehicle Cost : +29 7% ZEV mode 

Improved Parallel Hybrid Auxiliary Power Unit 

ZEV t dFuel Cell Hybrid 

Vehicle Cost : +27.5%CO2:‐52%

Vehicle Cost : +29.7%CO2:‐56%

yBatteries ,Motors, Control, Exhaust Energy recovery

as ZEV range extenderFuel Cell‐Liquid orHydrogen Fuel

yVehicle

Hydrogen Fuel

V hi l C t 24 3%Vehicle Cost : +24.3%CO2:‐49%

Traffic Management

Improved On‐road Safety

Reduced Fuel Consumption

Increased Capacity and Throughput

ITSh d

Reduced Emission

Enhanced Personal 

Mobility and Convenience

Improved Transport Efficiency

Convenience

Traffic Management

Intelligent Transport System (ITS) one of the key technologies which can contribute to mitigating climate change

ITS is designed to achieveI t f d f t d• Improvement of road safety and reduction of traffic accidents –

• Increase of traffic efficiency;• Improvement of freight and public transportation efficiency;

• Reduction of CO2 emissions.• Driver assist and management 

Traffic Management

Traffic Management

V2V communications zone

V2V and I2V communications zone

Time

I2V intervalI2V interval

Traffic Management

Advanced Public Transportation SystemsTransportation Systems

Advanced Vehicle Control Systems ‐ Intelligent Cruise Control Systemy

Intelligent Transportation Systems – Technologies supporting ITS

Traffic ManagementIntelligent Transportation Systems – Technologies  supporting ITS

‐Global Positioning System(GPS)        ‐Dedicated Short Range Communications(DSRC)( )

‐Wireless Networks                             ‐Mobile Telephony

Traffic Management

Intelligent Transportation Systems – Technologies  supporting ITS Cont..

‐Radio Wave or IR  Beacons            ‐ Roadside Camera R i iRecognition

‐Probe Vehicles or Devices

Thereby leading to improved fuel economy reduced congestion and

Traffic ManagementThereby, leading to improved  fuel economy, reduced congestion and more road safety

Source: IEA_Technology_Roadmap_Fuel_Economy_2012

I t lli t T t ti S t W ld E i S th

Traffic Management

d h bl

Intelligent Transportation Systems – World Experiences: South Korea

• Started in 2000 with 20 years blue print• Investment US$ 1.3 billion • Started in a model city in 1998, expanded to 25 cities by 2007

b f f $ d• Economic benefit of US$ 109 m every year due to reduced transportation time, accidents, environmental pollutionenvironmental pollution

Traffic Management

Intelligent Transportation Systems – World Experiences: Japan

• Started in late 90s• US$ 640 m every year• Extensive use of real time traffic information• Extensive use of probe vehicles

Traffic Management

Intelligent Transportation Systems – Benefit : Cost studies

••

Traffic Management

Intelligent Transportation Systems – Benefit : Cost studies

• ITS systems 9:1 as against 2.7:1 for addition of conventional highway capacity

• Florida University: US$ 142 m annually 14:1 ratio

• Texas: optimization of traffic signal operation 38:1

Intelligent Transportation Systems Efforts in India

Traffic Management

• Location Technologies

Intelligent Transportation Systems – Efforts in India

Location TechnologiesGPS based tracking for public transport in use in Delhi Bangalore Indoreuse in Delhi, Bangalore, Indore 

• Fare collection TechnologiesDelhi Metro

• Electronic Toll CollectionDelhi‐Noida Highway, Bangalore Electronic City HighwayCity Highway

Bus Population in India Comparison (2012)

Traffic ManagementBus Population in India Comparison (2012)

Why Public Transport: Because Transporting 10,000 People for 1 km requiresPeople for 1 km requires…

To carry 50,000 people per hour per direction requires: • 175 m wide road used only by cars or

Source: Report of UTIP

175 m wide road used only by cars, or • 35 m wide road used only by buses. 

Traffic Management

Why Public Transport:

Why Public Transport?

Traffic ManagementWhy Public Transport?

A comparative study of CO2 emissions per passenger indicates:

• Similar amount of emissions for bus with 50% occupancy vis‐à‐vis car with 75% occupancy

151.5CO2 Emissions per Passenger in g/km

33.8 33.8 33.8 33.837.9 50.575.8

25.3 33.750.5

101.1

100% Occupancy 75% Occupancy 50% Occupancy 25% Occupancy

4 stroke 2W Passenger Car Bus4‐stroke 2W Passenger Car Bus

Steps required for Improving Air Quality in Urban Areas

PROGRESSIVE

Roads:• Better Maintenance • Paving of Roads

Minimizing vehicular emissions:• Implementation of progressive norms

R d f f l lit• Paving of Roads• footpaths or low‐elevation 

concreting of unpaved surfaces• Use of fly ash bricks for

• Road map for fuel quality improvement

Use of fly ash bricks for pavement

• Road construction & maintenance guidelines by 

One country One fuel qualityand One regulation.…

Continued…concerned authorities

Steps required for Improving Air Quality in Urban Areas

Vehicle Scarp

Evolving of Comprehensive Vehicle Scrap Policy Periodical Inspection and Maintenance

• Management options like :

Evolving of Comprehensive Vehicle Scrap Policy Periodical Inspection and Maintenance 

Management options like :Synchronizing traffic signals Staggering business hoursRestricting vehicular movements in high pollution level areasin high pollution level areasFiscal incentives / disincentivesBanning odd/even vehicles on major roads

• Development of mass rapid transportation system.

Summing up…. Integrated Approach for Clean AirClean Air

Auto IndustryAd i f Ad d h l• Adoption of Advanced Technology

• Fuel Efficient Vehicles

Vehicle Owners• Good Maintenance  Practices• Better Driving HabitsBetter Driving Habits

To Conclude…………..

Conclusion contdConclusion contd.

Thank Thank youyou

Problems associated with Particle Number Measurement

Maturity of the PNthe PN 

measurement method.

Long term stability of the 

complete particle counter 

instrument.

Repeatability of the 

calibration and validation methods.

Integrated Approach to reduce Road Transport CO2

Vehicle technology and its penetrationVehicle technology and its penetration

Improved traffic management

Fuel infrastructure

Final consumerFinal consumer –ECO driving

Government policies:Cl C h tClear Coherent

67

Predictable Stable

Overview of Current Fuel consumption targetsin EU, US and Japan

Corporate Average Fuel Economy (Uniform Target)

Parametric approach: Weight (segmentation)

Present target: 27,5 mpg= ~ 204 gCO2/km (US Cycle)

Penalties: 5,5 $ per 0,1 mpg = ~ 5 € per gCO /km x vol cars

Future Target: 16.8 km/l by 2015 = 138 g CO2/km (Japan Cycle)

Penalties: ~ 6.000 €/manufacturer= ~ 5 € per gCO2/km x vol. cars

Future Target: 35 mpg by 2020 = ~ 160 gCO2/km (US Cycle)

Integrated Approach: Approximately 50% CO2 reduction by infrastructure

Parametric approach: Weight (segmentation)

Target: 120 gCO2/km by 2012 (130 g through Vehicle Technology

Commission proposal - under (130 g through Vehicle Technology

- 10 g through Complementary measures & biofuels)

Penalties: 2012 / 2013 / 2014 / 2015 20 / 35 / 60 / 95 € / g CO2/km x vol. cars

under discussion

/ / / / g 2/

Integrated Approach : 5 gr CO2 reduction by biofuels –NO reduction by Infrastructure

Total & Surfaced Road Length (1950‐51 to 2007‐08)

Source: BASIC ROAD STATISTICS OF INDIA, 2004‐05, 2005‐06, 2006‐07 & 2007‐08, MoRTH, TRANSPORT RESEARCH WING, NEW DELHI, JULY 2010

Category‐wise Road Length in India‐ 2008

Source: BASIC ROAD STATISTICS OF INDIA, 2004‐05, 2005‐06, 2006‐07 & 2007‐08, MoRTH, TRANSPORT RESEARCH WING, NEW DELHI, JULY 2010

Summing up the ‘Focus Areas’

h lVehicle:IC EnginesU f lt t f lUse of alternate fuelsElectric mobilityImplementation of I&MImplementation of I&M

Infrastructure:Uniform fuel specificationsUniform fuel specificationsEstablishing robust I&M systemConceptualization of ITS Roadmap and time‐bound implementation with necessary fundingGeneration of gaseous fuel from waste

Driver:Training of drivers for Eco‐driving

Mass emission standards (Draft Bharat Stage IV) for Two wheelers

A. Two Wheeled Vehicles fitted with Gasoline enginesI Mass emission standards (Bharat Stage IV) for two wheelers with engine capacityI.     Mass emission standards (Bharat Stage IV) for two wheelers, with engine capacity exceeding 50 cc and a maximum design speed exceeding 50 km/hour:

TA=COP norms (g/km)HC + NOx

ClassCO If the evaporative emission

complies with 2 g/testIf the evaporative emission

complies with 6 g/test

(1) (2) (3) (4)(2)Class 1 & Sub class 2-1 1.403 0.890 0.690

Sub class 2-2 1.970 0.690 0.490

Sub class 3-1 & Sub class 3-2 1.970 0.420 0.220

Definition of class

Class 1 50 cm³ < engine capacity < 150 cm³ and Vmax < 50 km/hor engine capacit < 150 cm³ and 50 km/h < Vma < 100 km/hengine capacity < 150 cm³ and 50 km/h < Vmax < 100 km/h

Sub Class 2-1 Engine capacity < 150 cm³ and 100 km/h < Vmax < 115 km/h orEngine capacity >150 cm³ and Vmax < 115 km/h

S b Cl 2 2 115 k /h < V < 130 k /hSub Class 2.2 115 km/h < Vmax < 130 km/h

Sub Class 3-1 130 km/h < Vmax < 140 km/h

Sub Class 3-2 Vmax ≥140 km/h subclass 3-2.

II. Mass emission standards (Bharat Stage IV) for two wheelers with Spark Ignition engines, other than those specified above:

Pollutant TA=COP norms (g/km) Deterioration Factor (D.F.)

(1) (2) (3)

CO 0.75 1.2

HC + NOx 0.75 1.2

B. BSIV emission norms TwoWheeled vehicles fitted with diesel engines:B. BSIV emission norms Two Wheeled vehicles fitted with diesel engines:

The mass emission standards shall be same as those applicable for Diesel Three‐wheelers.